const Tag Renderer::world_obj_normal_matrix_tag("world_obj_normal_matrix");
Renderer::Renderer():
- placeholder_texture(Resources::get_global().get<Texture>("_placeholder.png"))
+ placeholder_texture(Resources::get_global().get<Texture>("_placeholder.png")),
+ default_sampler(Resources::get_global().get<Sampler>("_linear_clamp.samp"))
{
state_stack.reserve(16);
shdata_stack.reserve(32);
void Renderer::pop_state()
{
- if(state_stack.size()==1)
+ if(state_stack.size()<=1)
throw stack_underflow("Renderer::pop_state");
uintptr_t old_pipeline = current_state->pipeline_key;
res_mgr->resource_used(*tex);
if(!tex->is_loaded())
tex = &placeholder_texture;
+ if(!samp)
+ samp = &default_sampler;
}
+ else
+ samp = 0;
- if(texture_stack.size()>state.texture_count)
+ set_resource(texture_stack, state.texture_count, tag, { tex, samp, level });
+}
+
+void Renderer::set_storage_texture(Tag tag, const Texture *tex)
+{
+ State &state = get_state();
+ set_resource(texture_stack, state.texture_count, tag, { tex, 0, 0 });
+}
+
+template<typename T>
+void Renderer::set_resource(vector<BoundResource<T>> &stack, unsigned &count, Tag tag, const T &res)
+{
+ if(stack.size()>count)
{
- BoundTexture &bt = texture_stack[state.texture_count];
- if(bt.tag==tag && bt.texture==tex && bt.sampler==samp)
+ BoundResource<T> &top = stack[count];
+ if(top.tag==tag && top.resource==res)
{
- ++state.texture_count;
+ ++count;
return;
}
else
- flush_textures();
+ flush_resources(stack, count);
}
- for(auto i=texture_stack.end(); i!=texture_stack.begin(); )
+ for(auto i=stack.end(); i!=stack.begin(); )
if((--i)->tag==tag)
{
- i->replaced = texture_stack.size();
+ i->replaced = stack.size();
break;
}
- texture_stack.emplace_back();
- BoundTexture &bound_tex = texture_stack.back();
- bound_tex.tag = tag;
- bound_tex.texture = tex;
- bound_tex.sampler = samp;
- bound_tex.level = level;
- state.texture_count = texture_stack.size();
+ stack.emplace_back();
+ BoundResource<T> &bound_res = stack.back();
+ bound_res.tag = tag;
+ bound_res.resource = res;
+ count = stack.size();
}
void Renderer::flush_shader_data()
shdata_stack.erase(shdata_stack.begin()+state.shdata_count, shdata_stack.end());
}
-void Renderer::flush_textures()
+template<typename T>
+void Renderer::flush_resources(vector<BoundResource<T>> &stack, unsigned &count)
{
- const State &state = get_state();
-
- for(unsigned i=0; i<state.texture_count; ++i)
- if(texture_stack[i].replaced>=static_cast<int>(state.texture_count))
- texture_stack[i].replaced = -1;
+ for(unsigned i=0; i<count; ++i)
+ if(stack[i].replaced>=static_cast<int>(count))
+ stack[i].replaced = -1;
- texture_stack.erase(texture_stack.begin()+state.texture_count, texture_stack.end());
+ stack.erase(stack.begin()+count, stack.end());
}
void Renderer::set_vertex_setup(const VertexSetup *vs)
void Renderer::draw(const Batch &batch)
{
apply_state();
- batch.refresh(frame_index);
- PipelineState &ps = get_pipeline_state();
- ps.set_primitive_type(batch.get_type());
- commands.use_pipeline(&ps);
+ apply_batch(batch);
commands.draw(batch);
}
void Renderer::draw_instanced(const Batch &batch, unsigned count)
{
apply_state();
+ apply_batch(batch);
+ commands.draw_instanced(batch, count);
+}
+
+void Renderer::apply_batch(const Batch &batch)
+{
batch.refresh(frame_index);
PipelineState &ps = get_pipeline_state();
ps.set_primitive_type(batch.get_type());
+ if(batch.get_type()==PATCHES)
+ ps.set_patch_size(batch.get_patch_size());
commands.use_pipeline(&ps);
- commands.draw_instanced(batch, count);
}
-void Renderer::resolve_multisample(Framebuffer &target)
+void Renderer::dispatch(unsigned count_x, unsigned count_y, unsigned count_z)
+{
+ apply_state();
+ PipelineState &ps = get_pipeline_state();
+ commands.use_pipeline(&ps);
+ commands.dispatch(count_x, count_y, count_z);
+}
+
+void Renderer::resolve_multisample()
{
const State &state = get_state();
if(!state.framebuffer)
throw invalid_operation("Renderer::resolve_multisample");
- unsigned width = state.framebuffer->get_width();
- unsigned height = state.framebuffer->get_height();
- if(target.get_width()!=width || target.get_height()!=height)
- throw incompatible_data("Renderer::resolve_multisample");
-
apply_framebuffer();
commands.use_pipeline(&get_pipeline_state());
- commands.resolve_multisample(target);
+ commands.resolve_multisample();
}
void Renderer::begin_query(const QueryPool &pool, unsigned index)
void Renderer::apply_state()
{
- const State &state = get_state();
+ State &state = get_state();
if(!state.shprog)
throw invalid_operation("Renderer::apply_state");
if(changed&MATRIX)
{
standard_shdata.uniform(world_obj_matrix_tag, state.model_matrix);
- LinAl::SquareMatrix<float, 3> nm = state.model_matrix.block<3, 3>(0, 0);
+ LinAl::Matrix<float, 3, 3> nm = state.model_matrix.block<3, 3>(0, 0);
nm = transpose(invert(nm));
standard_shdata.uniform(world_obj_normal_matrix_tag, nm);
changed &= ~MATRIX;
ps.set_face_cull(state.face_cull);
if(state.texture_count<texture_stack.size())
- flush_textures();
+ flush_resources(texture_stack, state.texture_count);
- for(const BoundTexture &t: texture_stack)
- if(t.texture && t.replaced<0)
+ for(const BoundResource<SampledTexture> &t: texture_stack)
+ if(t.resource.texture && t.replaced<0)
{
if(t.binding<0 || shprog_changed)
t.binding = state.shprog->get_uniform_binding(t.tag);
if(t.binding>=0)
- ps.set_texture(t.binding, t.texture, t.level, t.sampler);
+ {
+ if(t.resource.sampler)
+ ps.set_texture(t.binding, t.resource.texture, t.resource.level, t.resource.sampler);
+ else
+ ps.set_storage_texture(t.binding, t.resource.texture);
+ }
}
static const DepthTest default_depth_test;